SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4214489437> ?p ?o ?g. }

Showing items 1 to 100 of ±142 with 100 items per page.

W4214489437 endingPage "894" @default.
W4214489437 startingPage "883" @default.
W4214489437 abstract "Warming and eutrophication negatively affect freshwater ecosystems by modifying trophic interactions and increasing water turbidity. We need to consider their joint effects on predator-prey interactions and how these depend on the thermal evolution of both predator and prey. We quantified how 4°C warming and algae-induced turbidity (that integrates turbidity per se and increased food for zooplankton prey) affect functional response parameters and prey population parameters in a common-garden experiment. We did so for all combinations of high- and low-latitude predator (damselfly larvae) and prey (water fleas) populations to assess the potential impact of thermal evolution of predators and/or prey at a high latitude under warming using a space-for-time substitution. We then modelled effects on the system stability (i.e. tendency to oscillate) under different warming, turbidity and evolutionary scenarios. Warming and turbidity had little effect on the functional response parameters of high-latitude predators. In contrast, warming and turbidity reduced the handling times of low-latitude predators. Moreover, warming increased the search rates of low-latitude predators in clear water but instead decreased these in turbid water. Warming increased stability (i.e. prevented oscillations) in turbid water (except for the 'high-latitude predator and high-latitude prey' system), mainly by decreasing the prey's carrying capacity and partly also by decreasing search rates, while it did not affect stability in clear water. Algae-induced turbidity generally decreased stability, mainly by increasing the prey's carrying capacity and partly also by increasing search rates. This resembles findings that nutrient enrichment can reduce the stability of trophic systems. The expected stability of the high-latitude trophic system under warming was dependent on the turbidity level: our results suggest that thermal plasticity tends to destabilize the high-latitude trophic system under warming in clear water but not in turbid water, and that thermal evolution of the predator will stabilize the high-latitude system under warming in turbid water but less so in clear water. The extent to which thermal plasticity and evolution shape trophic system stability under warming may strongly differ between clear and turbid water bodies, with their contributions having a more stabilizing role in turbid water." @default.
W4214489437 created "2022-03-02" @default.
W4214489437 creator A5022540401 @default.
W4214489437 creator A5028231859 @default.
W4214489437 creator A5083315438 @default.
W4214489437 creator A5083926324 @default.
W4214489437 date "2022-03-13" @default.
W4214489437 modified "2023-10-15" @default.
W4214489437 title "Thermal plasticity and evolution shape predator–prey interactions differently in clear and turbid water bodies" @default.
W4214489437 cites W1876591818 @default.
W4214489437 cites W1931162181 @default.
W4214489437 cites W1969027200 @default.
W4214489437 cites W1984182897 @default.
W4214489437 cites W2027863805 @default.
W4214489437 cites W2055155561 @default.
W4214489437 cites W2057580404 @default.
W4214489437 cites W2059020058 @default.
W4214489437 cites W2063981741 @default.
W4214489437 cites W2086290199 @default.
W4214489437 cites W2086343387 @default.
W4214489437 cites W2088697428 @default.
W4214489437 cites W2089288956 @default.
W4214489437 cites W2091693671 @default.
W4214489437 cites W2103498027 @default.
W4214489437 cites W2107084129 @default.
W4214489437 cites W2110065044 @default.
W4214489437 cites W2111104522 @default.
W4214489437 cites W2121574106 @default.
W4214489437 cites W2134751531 @default.
W4214489437 cites W2137462111 @default.
W4214489437 cites W2140847080 @default.
W4214489437 cites W2141011783 @default.
W4214489437 cites W2143633121 @default.
W4214489437 cites W2150141029 @default.
W4214489437 cites W2153265872 @default.
W4214489437 cites W2154406609 @default.
W4214489437 cites W2162254067 @default.
W4214489437 cites W2164548241 @default.
W4214489437 cites W2168180163 @default.
W4214489437 cites W2265312118 @default.
W4214489437 cites W2305094817 @default.
W4214489437 cites W2317937646 @default.
W4214489437 cites W2515706791 @default.
W4214489437 cites W2551550941 @default.
W4214489437 cites W2559789936 @default.
W4214489437 cites W2604700879 @default.
W4214489437 cites W2616111333 @default.
W4214489437 cites W2733135707 @default.
W4214489437 cites W2791527638 @default.
W4214489437 cites W2799075107 @default.
W4214489437 cites W2885028803 @default.
W4214489437 cites W2890015675 @default.
W4214489437 cites W2895225113 @default.
W4214489437 cites W2901971909 @default.
W4214489437 cites W2906573891 @default.
W4214489437 cites W2943024602 @default.
W4214489437 cites W2946595638 @default.
W4214489437 cites W2949994105 @default.
W4214489437 cites W2951482714 @default.
W4214489437 cites W2954187396 @default.
W4214489437 cites W2954318470 @default.
W4214489437 cites W2959191739 @default.
W4214489437 cites W2968742337 @default.
W4214489437 cites W2979609197 @default.
W4214489437 cites W3000314015 @default.
W4214489437 cites W3006277418 @default.
W4214489437 cites W3011174103 @default.
W4214489437 cites W3012977106 @default.
W4214489437 cites W3020870178 @default.
W4214489437 cites W3032356224 @default.
W4214489437 cites W3033981303 @default.
W4214489437 cites W3045761708 @default.
W4214489437 cites W3082255144 @default.
W4214489437 cites W3153274850 @default.
W4214489437 cites W3171884129 @default.
W4214489437 cites W4230539008 @default.
W4214489437 doi "https://doi.org/10.1111/1365-2656.13680" @default.
W4214489437 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/35220603" @default.
W4214489437 hasPublicationYear "2022" @default.
W4214489437 type Work @default.
W4214489437 citedByCount "3" @default.
W4214489437 countsByYear W42144894372023 @default.
W4214489437 crossrefType "journal-article" @default.
W4214489437 hasAuthorship W4214489437A5022540401 @default.
W4214489437 hasAuthorship W4214489437A5028231859 @default.
W4214489437 hasAuthorship W4214489437A5083315438 @default.
W4214489437 hasAuthorship W4214489437A5083926324 @default.
W4214489437 hasBestOaLocation W42144894373 @default.
W4214489437 hasConcept C122523270 @default.
W4214489437 hasConcept C13280743 @default.
W4214489437 hasConcept C144024400 @default.
W4214489437 hasConcept C149923435 @default.
W4214489437 hasConcept C158836135 @default.
W4214489437 hasConcept C188382862 @default.
W4214489437 hasConcept C18903297 @default.
W4214489437 hasConcept C205649164 @default.
W4214489437 hasConcept C2908647359 @default.
W4214489437 hasConcept C39432304 @default.